Location Measurement Apparatus and Method

1. A location measurement method, comprising: determining a grade of a first received signal strength indication (RSSI) corresponding to an object which communicates with a first node; calculating a range of the object from the first node based on the grade of the first RSSI; determining a grade of a second RSSI corresponding to the object which communicates with a second node; calculating a range of the object from the second node based on the grade of the second RSSI; calculating two presumed locations based on the range from the first node and the range from the second node; and determining one of the two presumed locations to be a final location of the object by predicting a movement of the object; wherein the grade is classified as a first, second or third level based on the RSSI; and wherein the first level is a level which allows the range of the RSSI to be directly considered and applied to calculation of the range from the first or second node, and the second and third levels are levels which are used to calculate the range from the first or second node by apply preset ranges.

2. The method of claim 1 , wherein the first level has a higher signal strength than the second level, and the second level has a higher signal strength than the third level.

3. The method of claim 1 , wherein the calculating two presumed locations comprises: calculating two presumed regions by restricting coverage using first and second presumed lines and removing a region in which the object is not present via the restricted coverage; and calculating the two presumed locations based on centers of the two presumed regions.

4. The method of claim 1 , wherein the determining one of the two presumed locations to be a final location of the object comprises: estimating a velocity of the object using previous location information of the object and the two presumed locations; and calculating the final location of the object using the estimated velocity of the object.

5. A location measurement apparatus, comprising: a first grading unit configured to determine a grade of a first RSSI corresponding to an object which communicates with a first node; a first presumed line calculation unit configured to calculate a range of the object from the first node based on the grade of the first RSSI; a second grading unit configured to determine a grade of a second RSSI corresponding to the object which communicates with a second node; a second presumed line calculating unit configured to calculate a range of the object from the second node based on the grade of the second RSSI; a presumed location calculation unit configured to calculate two presumed locations based on the range from the first node and the range from the second node; and a final location calculation unit configured to determine one of the two presumed locations to be a final location of the object by predicting a movement of the object; wherein the grade is classified as a first, second or third level based on the RSSI; wherein the first level is a level which allows the range of the RSSI to be directly considered and applied to calculation of the range from the first or second node, and the second and third levels are levels which are used to calculate the range from the first or second node by apply preset ranges.

6. The apparatus of claim 5 , wherein the first level has a higher signal strength than the second level, and the second level has a higher signal strength than the third level.

7. The apparatus of claim 5 , wherein the presumed location calculation unit calculates two presumed regions using a first presumed line and a second presumed line, and calculates the two presumed locations based on centers of the two presumed regions.

8. The apparatus of claim 5 , wherein the final location calculation unit estimates a velocity of the object using previous location information of the object and the two presumed locations, and determines the final location of the object using the estimated velocity of the object.